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Field
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can be found on the BMI website: https://go.fzj.de/bmi.tvoed (pay scale table on page 66 of the PDF download). LEAVE: You will receive 30 days of leave plus additional days off (e.g. between Christmas
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possible. All information about the TVöD-Bund collective agreement can be found on the BMI website: https://go.fzj.de/bmi.tvoed (pay scale table on page 66 of the PDF download). LEAVE: You will receive 30
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in preparing quantum states of nanoparticles serving as mechanical systems [2] and scaling up the system size to multi-particle arrays [3,4]. By leveraging quantum and many-body resources in levitated
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inference algorithms as well as proofs of their correctness and efficiency) and systems (e.g., high performance, functional array programming DSLs) to tackle challenging probabilistic and differentiable
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micrometer resolution, allowing validation of the model predictions. Validation and evaluation of the RFBs with optimized hierarchical electrodes. What you bring to the table Very good master´s degree in
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can be found on the BMI website: go.fzj.de/bmi.tvoed (pay scale table on page 66 of the PDF download). LEAVE: You will receive 30 days of leave plus additional days off (e.g. between Christmas and New
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. Additional compensation beyond the base salary may be possible. All information about the TVöD-Bund collective agreement can be found on the BMI website: go.fzj.de/bmi.tvoed (pay scale table on page 66
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bring to the table You have a completed scientific university degree in process engineering, microsystems technology, nanotechnology, or a comparable field. Ideally, you have already gained experience
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) and systems (e.g., high performance, functional array programming DSLs) to tackle challenging probabilistic and differentiable programming applications (e.g., experimental design, machine learning
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domains are e.g., signal-/image processing, artificial intelligence and machine learning. Tasks: research and development in designing and programming field programmable gate arrays (FPGAs) for accelerating